Introduction to Hybrid Electric Vehicle using MATLAB and Simulink
- Offered bySkill Lync
Introduction to Hybrid Electric Vehicle using MATLAB and Simulink at Skill Lync Overview
Duration | 4 weeks |
Total fee | ₹40,000 |
Mode of learning | Online |
Official Website | Go to Website  |
Credential | Certificate |
- Overview
- Highlights
- Course Details
- Curriculum
Introduction to Hybrid Electric Vehicle using MATLAB and Simulink at Skill Lync Highlights
- Earn a certificate after completion of the course
- 1 year access to skill-lync’s learning management system (LMS)
- Live individual & group sessions to resolve queries, discuss progress and study plans.
- Personalized & hands-on support over mail, telephone for query resolution & overall learner progress
Introduction to Hybrid Electric Vehicle using MATLAB and Simulink at Skill Lync Course details
For students pursuing mechanical and electric engineering
Knowledge of different techniques, tools, and MATLAB software that hold immense real-life applications.
A thorough understanding of the concepts of Hybrid Electric Vehicles Architectures, Braking of Electrical Motors and Motor Efficiency Plots and Traction Power Equations.
A better grasp of the analysis and simulation of powertrain machines for electric vehicles (EVs).
This course is a three-month learning program where you learn about the development of Hybrid Drives using MATLAB and Simulink
This online course assists engineering students in enhancing their aptitude and understanding in the automotive field
The Introduction to Hybrid Electric Vehicle using MATLAB and Simulink online certification course is fundamentally a skill development learning program that enhances the field understanding of the engineers regarding the automotive field
Introduction to Hybrid Electric Vehicle using MATLAB and Simulink at Skill Lync Curriculum
Week 1- Traction Power Equations, Driving Cycle & Importance of Modelling
Vehicle Response for Different Drive Cycle Patterns
Wide-open Throttle Calculations
Vehicle Power Requirement Calculations
Week 2- Hybrid Electric Vehicle Architecture
Different Configurations of Power Train Components
Battery Electric Vehicle
Hybrid Electric Vehicle: Series, Parallel, and Series-Parallel
MATLAB Simulation
Week 3- Electric Motors and Power Converters For Propulsion
Electrical Engineering Terminologies
Fundamentals of DC and AC Motors
Working Principle, Characteristics, and Control
Week 4- Braking of Electrical Motors & Motor Efficiency Plots
Braking Requirements of the Vehicle
Methods of Braking of DC and Induction Motors
Regenerative Braking and Dynamic Braking
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